DE10246904B4 - Method for producing an X-ray image - Google Patents

Abstract

Method for producing an X-ray image, comprising the following method steps:
Producing an image data set by subtracting the image information of a first X-ray image data set from the image information of a second X-ray image data set, the first X-ray image data set being associated with a first X-ray image (20) and the second X-ray image data set being associated with a second X-ray image (30) of a body region of a living being (4) first X-ray image data set and the second X-ray image data set are made during two different, several months apart examination appointments and the first X-ray image (20) and the second X-ray image (30) are assigned to the same projection,
- Highlighting the image information of the image data set and
- Overlay the image information of the image data set to the image information of the second X-ray image data set.

Description

The The invention relates to a method for producing an X-ray image.

Of the Course of a tumor or carcinoma treatment of a patient becomes u. a. controlled by that of the body region of the patient, of the tumor or carcinomas are affected, at intervals radiographs a doctor compares. Because of in the x-rays visible changes The doctor can draw conclusions follow the course of tumor or carcinoma treatment.

In the DE 196 20 371 A1 is described to generate a series of two-dimensional projection images from a three-dimensional image of an examination subject. Subsequently, the X-ray image and the synthetic projection image are combined to form a sub-picture image and these sub-picture images are reproduced as a sequence. This is intended to produce a three-dimensional impression of the examination area, wherein the first x-ray image data record and the second image data record are generated one after the other within the framework of a single examination.

The DE 692 11 057 T2 describes an X-ray recording method with contrast agent administration, in which both X-ray images are taken shortly after each other, before and after the administration of contrast medium. Therefore, with this method, only an up-to-date picture of blood vessels can be made, but it is not possible to detect changes that have occurred in recent months.

Out Erich Krestel, "Imaging Systems for Medical Diagnostics ", Siemens AG, Berlin and Munich, pages 369 to 374 and 449, ISBN 3-8009-1564-2, a method of digital subtraction angiography is known, which substantially coincides with the above described method. It must the two pictures (without contrast medium and with contrast medium) short taken in succession, within a certain time window because the effect of the contrast agent weakens very quickly. Then be both images subtracted and displayed on a monitor. An overlay the image information of the image data set (subtraction image) with However, image information of the second (current) X-ray image data set is not provided.

The The object of the invention is therefore to provide a method with which changes, in two x-rays, that of a body region of a patient on two different examination dates become visible, easier to recognize.

• – Herstellen eines Bilddatensatzes, indem die Bildinformationen eines ersten Röntgenbilddatensatzes von den Bildinformationen eines zweiten Röntgenbilddatensatzes subtrahiert werden, der erste Röntgenbilddatensatz einem ersten Röntgenbild und der zweite Röntgenbilddatensatz einem zweiten Röntgenbild einer Körperregion eines Lebewesens zugeordnet sind, der erste Röntgenbilddatensatz und der zweite Röntgenbilddatensatz während zweier unterschiedlicher, mehrere Monate auseinander liegender Untersuchungsterminen angefertigt werden und das erste Röntgenbild und das zweite Röntgenbild der gleichen Projektion zugeordnet sind,
• – Hervorheben der Bildinformationen des Bilddatensatzes und
• – Überlagern der Bildinformationen des Bilddatensatzes zu den Bildinformationen des zweiten Röntgenbilddatensatzes.

The object of the invention is achieved by a method for producing an X-ray image, comprising the following method steps:

• Producing an image data set by subtracting the image information of a first X-ray image data set from the image information of a second X-ray image data set, the first X-ray image data set being associated with a first X-ray image and the second X-ray image data set being associated with a second X-ray image of a living region of the subject, the first X-ray image data set and the second X-ray image data set during two different ones , several months apart examination appointments are made and the first X-ray image and the second X-ray image are assigned to the same projection,
• - Highlighting the image information of the image data set and
• - Overlay the image information of the image data set to the image information of the second X-ray image data set.

According to the invention, the two X-ray images of the living being assigned X-ray image data sets are subtracted from each other. The X-ray images associated with the two X-ray image data sets are made by the same body region of the living being, at least substantially with the same projections and during two examination appointments. There is a period of time, for example several months, between the two examination dates. Due to the subtraction of the two X-ray image data sets, the resulting image data set shows how the body region from which the X-ray images were taken has changed between the two examination dates. If the image data set z. B. used to control a tumor or carcinoma treatment, the resulting image data set in particular shows a change in the tumor or carcinomas. Subsequently, the image information of the resulting image data set is highlighted and superimposed with the image information of the second X-ray image data set. The image information of the resulting image data set is superimposed in particular with the image information of the second x-ray image data set by being added to or subtracted from the image information of the second x-ray image data set. The resulting X-ray image can then z. B. be viewed with a diagnostic monitor. Due to the highlighted image information of the image data set, which reflects the changes between the two examination appointments, the changes on the X-ray image displayed on the diagnostic monitor are also highlighted. As a result, a doctor can detect the changes in a relatively simple manner, facilitating his work and reducing one change probably overlooks.

According to preferred embodiments According to the invention, the image information of the image data set becomes colored highlighted or amplified.

There in hospitals and radiological practices produced relatively common radiographic images of the thorax are, according to a variant of the invention, the body region the thorax of the living being.

One embodiment The invention is illustrated by way of example in the accompanying drawings. Show it:

1 an X-ray diagnostic device and

2 to 5 X-ray images.

The in the 1 partially represented by a block diagram X-ray diagnostic device has one of an X-ray generator 2 operated X-ray source 1 on. The X-ray source 1 sends an X-ray beam during operation 3 whose marginal rays in the 1 are shown dashed, off. The x-ray beam 1 penetrates a patient 4 and hits an X-ray image intensifier 5 according to the patient's transparency 4 weakened as an x-ray image. The X-ray image intensifier 5 is a solid state image sensor 6 followed by appropriate electronics, the output of the X-ray image intensifier 5 converted into electronic signals, so that from each to the X-ray image intensifier 5 incident X-ray image creates an X-ray image data set.

In the case of the present exemplary embodiment, the X-ray image data sets correspond to the DICOM standard customary in medical technology and are located on a computer connected to the X-ray diagnostic device 7 associated hard drive 8th saved. Since the X-ray image data sets are in the DICOM standard in the case of the present exemplary embodiment, information such as the image size, the number of pixels, the pixel size and the scale factor of the X-ray image associated with the corresponding X-ray image data set are stored in a header assigned to the X-ray image data record.

Besides, with a monitor 9 that with the calculator 7 connected to the hard drive 8th of the computer 7 stored X-ray image records associated X-ray images are considered.

On the calculator 7 is in the case of the present embodiment, a computer program stored with which an image data set due to a subtraction of two on the hard disk 8th stored X-ray image data records can be produced. The X-ray image data sets used for the image data set are produced at two different examination appointments and from the same body region of a patient. In addition, the X-ray images associated with the X-ray image data sets are recorded in the same projection. In the case of the present exemplary embodiment, the corresponding X-ray images are X-ray images of the thorax of the patient 4 , One of the X-ray images was taken at an earlier examination date. It is exemplary in the 2 represented and with the reference numeral 20 Mistake. The second radiograph became a later examination appointment, in the case of the present embodiment, during the patient's current examination 4 added. It is exemplary in the 3 represented and with the reference numeral 30 Mistake. Between the examination appointments are in the case of the present embodiment in about six months.

by virtue of the one in the X-ray image records assigned Headers stored information about the image dimensions, the Number of pixels, pixel sizes and scale factors Is it possible, the image data of the two Rönt genbilddatensätze custom to overlay and then similar as in digital subtraction angiography (DSA) from each other to subtract. The correct overlay is u in the case of the present embodiment u. a. by Pixelshift, a method known from angiography achieved. Also known to those skilled methods for pattern recognition used. In the case of X-rays of the thorax can so that the contours of the ribs are detected and by means of this Information the X-ray image records accurately superimposed become.

In the case of the present exemplary embodiment, the X-ray image data record taken at the earlier examination appointment, which corresponds to that in the 2 shown radiograph 20 is assigned, from the recorded for later examination appointment X-ray image data set, its associated X-ray image 30 in the figure 30 is shown deducted. The image associated with the resulting image data set is in the 4 shown and with the reference numeral 40 Mistake.

Due to the subtraction that includes in the 4 shown picture 40 the differences between the two x-ray images 20 and 30 , In order to clarify the differences, it is provided in the case of the present embodiment, the Highlight the pixels of the resulting image data set in color. A gain of the image data is also suitable for highlighting the image information of the image data set. In the case of the present embodiment is in the X-ray image 30 an image 31 a tumor visible in the x-ray 20 not available. The image 31 of the tumor is thus the difference between the two x-ray images 20 and 30 , The image of the tumor is in the picture 40 highlighted and with the reference numeral 41 Mistake.

Subsequently, the image data set and the X-ray image data set, which was recorded at the later examination date and in the 3 illustrated X-ray image 30 too ordered, added. The X-ray image associated with this X-ray image data set 50 is in the 5 shown. In the resulting X-ray image 50 is therefore the highlighted image 41 of the tumor highlighted in color.

In the case of the present embodiment, X-ray images 20 and 30 from the thorax of the patient 4 used. In principle, the method according to the invention can also be used in particular for X-ray images of the same organ or other body regions. Similar to the method of the Dynamic Density Optimization, the X-ray image data sets can be scaled with an adjustable subtraction factor before the subtraction. The image data set can also be provided with an adjustable factor before the addition with the corresponding X-ray image data set.

Claims (4)

A method for producing an X-ray image, comprising the following method steps: producing an image data set by subtracting the image information of a first X-ray image data set from the image information of a second X-ray image data set, the first X-ray image data set a first X-ray image ( 20 ) and the second X-ray image data set a second X-ray image ( 30 ) of a body region of a living being ( 4 ), the first x-ray image data set and the second x-ray image data set are produced during two different examination appointments which are several months apart and the first x-ray image ( 20 ) and the second X-ray image ( 30 ) are assigned to the same projection, - highlighting the image information of the image data set and - overlaying the image information of the image data set to the image information of the second x-ray image data set. The method of claim 1, wherein the image information of the image data set are highlighted in color. The method of claim 1, wherein the image information of the image data set become. Method according to one of claims 1 to 3, wherein the body region of the thorax of the living organism ( 4 ).